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%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%%     http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(erts_code_purger).

%% Purpose : Implement system process erts_code_purger
%%           to handle code module purging.

-export([start/0, purge/1, soft_purge/1]).

-spec start() -> term().
start() ->
    register(erts_code_purger, self()),
    process_flag(trap_exit, true),
    loop().

loop() ->
    receive
	{purge,Mod,From,Ref} when is_atom(Mod), is_pid(From) ->
	    Res = do_purge(Mod),
	    From ! {reply, purge, Res, Ref};

	{soft_purge,Mod,From,Ref} when is_atom(Mod), is_pid(From) ->
	    Res = do_soft_purge(Mod),
	    From ! {reply, soft_purge, Res, Ref};

	M ->
	    erlang:display({"erts_code_purger got msg", M})
    end,
    loop().


%% purge(Module)
%%  Kill all processes running code from *old* Module, and then purge the
%%  module. Return {WasOld, DidKill}:
%%  {false, false} there was no old module to purge
%%  {true, false} module purged, no process killed
%%  {true, true} module purged, at least one process killed

purge(Mod) when is_atom(Mod) ->
    Ref = make_ref(),
    erts_code_purger ! {purge, Mod, self(), Ref},
    receive
	{reply, purge, Result, Ref} ->
	    Result
    end.


do_purge(Mod) ->
    case erts_internal:copy_literals(Mod, true) of
        false ->
            {false, false};
        true ->
            DidKill = check_proc_code(erlang:processes(), Mod, true),
            true = erts_internal:copy_literals(Mod, false),
	    WasPurged = erts_internal:purge_module(Mod),
            {WasPurged, DidKill}
    end.

%% soft_purge(Module)
%% Purge old code only if no procs remain that run old code.
%% Return true in that case, false if procs remain (in this
%% case old code is not purged)

soft_purge(Mod) ->
    Ref = make_ref(),
    erts_code_purger ! {soft_purge, Mod, self(), Ref},
    receive
	{reply, soft_purge, Result, Ref} ->
	    Result
    end.


do_soft_purge(Mod) ->
    case erts_internal:copy_literals(Mod, true) of
	false ->
	    true;
	true ->
	    DoPurge = check_proc_code(erlang:processes(), Mod, false),
	    true = erts_internal:copy_literals(Mod, false),
	    case DoPurge of
		false ->
		    false;
		true ->
		    erts_internal:purge_module(Mod),
		    true
	    end
    end.

%%
%% check_proc_code(Pids, Mod, Hard) - Send asynchronous
%%   requests to all processes to perform a check_process_code
%%   operation. Each process will check their own state and
%%   reply with the result. If 'Hard' equals
%%   - true, processes that refer 'Mod' will be killed. If
%%     any processes were killed true is returned; otherwise,
%%     false.
%%   - false, and any processes refer 'Mod', false will
%%     returned; otherwise, true.
%%
%%   Requests will be sent to all processes identified by
%%   Pids at once, but without allowing GC to be performed.
%%   Check process code operations that are aborted due to
%%   GC need, will be restarted allowing GC. However, only
%%   ?MAX_CPC_GC_PROCS outstanding operation allowing GC at
%%   a time will be allowed. This in order not to blow up
%%   memory wise.
%%
%%   We also only allow ?MAX_CPC_NO_OUTSTANDING_KILLS
%%   outstanding kills. This both in order to avoid flooding
%%   our message queue with 'DOWN' messages and limiting the
%%   amount of memory used to keep references to all
%%   outstanding kills.
%%

%% We maybe should allow more than two outstanding
%% GC requests, but for now we play it safe...
-define(MAX_CPC_GC_PROCS, 2).
-define(MAX_CPC_NO_OUTSTANDING_KILLS, 10).

-record(cpc_static, {hard, module, tag}).

-record(cpc_kill, {outstanding = [],
		   no_outstanding = 0,
		   waiting = [],
		   killed = false}).

check_proc_code(Pids, Mod, Hard) ->
    Tag = erlang:make_ref(),
    CpcS = #cpc_static{hard = Hard,
		       module = Mod,
		       tag = Tag},
    check_proc_code(CpcS, cpc_init(CpcS, Pids, 0), 0, [], #cpc_kill{}, true).

check_proc_code(#cpc_static{hard = true}, 0, 0, [],
		#cpc_kill{outstanding = [], waiting = [], killed = Killed},
		true) ->
    %% No outstanding requests. We did a hard check, so result is whether or
    %% not we killed any processes...
    Killed;
check_proc_code(#cpc_static{hard = false}, 0, 0, [], _KillState, Success) ->
    %% No outstanding requests and we did a soft check...
    Success;
check_proc_code(#cpc_static{hard = false, tag = Tag} = CpcS, NoReq0, NoGcReq0,
		[], _KillState, false) ->
    %% Failed soft check; just cleanup the remaining replies corresponding
    %% to the requests we've sent...
    {NoReq1, NoGcReq1} = receive
			     {check_process_code, {Tag, _P, GC}, _Res} ->
				 case GC of
				     false -> {NoReq0-1, NoGcReq0};
				     true -> {NoReq0, NoGcReq0-1}
				 end
			 end,
    check_proc_code(CpcS, NoReq1, NoGcReq1, [], _KillState, false);
check_proc_code(#cpc_static{tag = Tag} = CpcS, NoReq0, NoGcReq0, NeedGC0,
		KillState0, Success) ->

    %% Check if we should request a GC operation
    {NoGcReq1, NeedGC1} = case NoGcReq0 < ?MAX_CPC_GC_PROCS of
			      GcOpAllowed when GcOpAllowed == false;
					       NeedGC0 == [] ->
				  {NoGcReq0, NeedGC0};
			      _ ->
				  {NoGcReq0+1, cpc_request_gc(CpcS,NeedGC0)}
			  end,

    %% Wait for a cpc reply or 'DOWN' message
    {NoReq1, NoGcReq2, Pid, Result, KillState1} = cpc_recv(Tag,
							   NoReq0,
							   NoGcReq1,
							   KillState0),

    %% Check the result of the reply
    case Result of
	aborted ->
	    %% Operation aborted due to the need to GC in order to
	    %% determine if the process is referring the module.
	    %% Schedule the operation for restart allowing GC...
	    check_proc_code(CpcS, NoReq1, NoGcReq2, [Pid|NeedGC1], KillState1,
			    Success);
	false ->
	    %% Process not referring the module; done with this process...
	    check_proc_code(CpcS, NoReq1, NoGcReq2, NeedGC1, KillState1,
			    Success);
	true ->
	    %% Process referring the module...
	    case CpcS#cpc_static.hard of
		false ->
		    %% ... and soft check. The whole operation failed so
		    %% no point continuing; clean up and fail...
		    check_proc_code(CpcS, NoReq1, NoGcReq2, [], KillState1,
				    false);
		true ->
		    %% ... and hard check; schedule kill of it...
		    check_proc_code(CpcS, NoReq1, NoGcReq2, NeedGC1,
				    cpc_sched_kill(Pid, KillState1), Success)
	    end;
	'DOWN' ->
	    %% Handled 'DOWN' message
	    check_proc_code(CpcS, NoReq1, NoGcReq2, NeedGC1,
			    KillState1, Success)
    end.

cpc_recv(Tag, NoReq, NoGcReq, #cpc_kill{outstanding = []} = KillState) ->
    receive
	{check_process_code, {Tag, Pid, GC}, Res} ->
	    cpc_handle_cpc(NoReq, NoGcReq, GC, Pid, Res, KillState)
    end;
cpc_recv(Tag, NoReq, NoGcReq,
	 #cpc_kill{outstanding = [R0, R1, R2, R3, R4 | _]} = KillState) ->
    receive
	{'DOWN', R, process, _, _} when R == R0;
					R == R1;
					R == R2;
					R == R3;
					R == R4 ->
	    cpc_handle_down(NoReq, NoGcReq, R, KillState);
	{check_process_code, {Tag, Pid, GC}, Res} ->
	    cpc_handle_cpc(NoReq, NoGcReq, GC, Pid, Res, KillState)
    end;
cpc_recv(Tag, NoReq, NoGcReq, #cpc_kill{outstanding = [R|_]} = KillState) ->
    receive
	{'DOWN', R, process, _, _} ->
	    cpc_handle_down(NoReq, NoGcReq, R, KillState);
	{check_process_code, {Tag, Pid, GC}, Res} ->
	    cpc_handle_cpc(NoReq, NoGcReq, GC, Pid, Res, KillState)
    end.

cpc_handle_down(NoReq, NoGcReq, R, #cpc_kill{outstanding = Rs,
					     no_outstanding = N} = KillState) ->
    {NoReq, NoGcReq, undefined, 'DOWN',
     cpc_sched_kill_waiting(KillState#cpc_kill{outstanding = cpc_list_rm(R, Rs),
					       no_outstanding = N-1})}.

cpc_list_rm(R, [R|Rs]) ->
    Rs;
cpc_list_rm(R0, [R1|Rs]) ->
    [R1|cpc_list_rm(R0, Rs)].

cpc_handle_cpc(NoReq, NoGcReq, false, Pid, Res, KillState) ->
    {NoReq-1, NoGcReq, Pid, Res, KillState};
cpc_handle_cpc(NoReq, NoGcReq, true, Pid, Res, KillState) ->
    {NoReq, NoGcReq-1, Pid, Res, KillState}.

cpc_sched_kill_waiting(#cpc_kill{waiting = []} = KillState) ->
    KillState;
cpc_sched_kill_waiting(#cpc_kill{outstanding = Rs,
				 no_outstanding = N,
				 waiting = [P|Ps]} = KillState) ->
    R = erlang:monitor(process, P),
    exit(P, kill),
    KillState#cpc_kill{outstanding = [R|Rs],
		       no_outstanding = N+1,
		       waiting = Ps,
		       killed = true}.

cpc_sched_kill(Pid, #cpc_kill{no_outstanding = N, waiting = Pids} = KillState)
  when N >= ?MAX_CPC_NO_OUTSTANDING_KILLS ->
    KillState#cpc_kill{waiting = [Pid|Pids]};
cpc_sched_kill(Pid,
	       #cpc_kill{outstanding = Rs, no_outstanding = N} = KillState) ->
    R = erlang:monitor(process, Pid),
    exit(Pid, kill),
    KillState#cpc_kill{outstanding = [R|Rs],
		       no_outstanding = N+1,
		       killed = true}.

cpc_request(#cpc_static{tag = Tag, module = Mod}, Pid, AllowGc) ->
    erlang:check_process_code(Pid, Mod, [{async, {Tag, Pid, AllowGc}},
					 {allow_gc, AllowGc}]).

cpc_request_gc(CpcS, [Pid|Pids]) ->
    cpc_request(CpcS, Pid, true),
    Pids.

cpc_init(_CpcS, [], NoReqs) ->
    NoReqs;
cpc_init(CpcS, [Pid|Pids], NoReqs) ->
    cpc_request(CpcS, Pid, false),
    cpc_init(CpcS, Pids, NoReqs+1).

% end of check_proc_code() implementation.